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// Copyright (c) 2009-2010 Satoshi Nakamoto
// Copyright (c) 2009-2020 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#ifndef BITCOIN_SCRIPT_INTERPRETER_H
#define BITCOIN_SCRIPT_INTERPRETER_H
#include <hash.h>
#include <script/script_error.h>
#include <span.h>
#include <primitives/transaction.h>
#include <vector>
#include <stdint.h>
class CPubKey;
class XOnlyPubKey;
class CScript;
class CTransaction;
class CTxOut;
class uint256;
/** Signature hash types/flags */
enum
{
SIGHASH_ALL = 1,
SIGHASH_NONE = 2,
SIGHASH_SINGLE = 3,
SIGHASH_ANYONECANPAY = 0x80,
SIGHASH_DEFAULT = 0, //!< Taproot only; implied when sighash byte is missing, and equivalent to SIGHASH_ALL
SIGHASH_OUTPUT_MASK = 3,
SIGHASH_INPUT_MASK = 0x80,
};
/** Script verification flags.
*
* All flags are intended to be soft forks: the set of acceptable scripts under
* flags (A | B) is a subset of the acceptable scripts under flag (A).
*/
enum : uint32_t {
SCRIPT_VERIFY_NONE = 0,
// Evaluate P2SH subscripts (BIP16).
SCRIPT_VERIFY_P2SH = (1U << 0),
// Passing a non-strict-DER signature or one with undefined hashtype to a checksig operation causes script failure.
// Evaluating a pubkey that is not (0x04 + 64 bytes) or (0x02 or 0x03 + 32 bytes) by checksig causes script failure.
// (not used or intended as a consensus rule).
SCRIPT_VERIFY_STRICTENC = (1U << 1),
// Passing a non-strict-DER signature to a checksig operation causes script failure (BIP62 rule 1)
SCRIPT_VERIFY_DERSIG = (1U << 2),
// Passing a non-strict-DER signature or one with S > order/2 to a checksig operation causes script failure
// (BIP62 rule 5).
SCRIPT_VERIFY_LOW_S = (1U << 3),
// verify dummy stack item consumed by CHECKMULTISIG is of zero-length (BIP62 rule 7).
SCRIPT_VERIFY_NULLDUMMY = (1U << 4),
// Using a non-push operator in the scriptSig causes script failure (BIP62 rule 2).
SCRIPT_VERIFY_SIGPUSHONLY = (1U << 5),
// Require minimal encodings for all push operations (OP_0... OP_16, OP_1NEGATE where possible, direct
// pushes up to 75 bytes, OP_PUSHDATA up to 255 bytes, OP_PUSHDATA2 for anything larger). Evaluating
// any other push causes the script to fail (BIP62 rule 3).
// In addition, whenever a stack element is interpreted as a number, it must be of minimal length (BIP62 rule 4).
SCRIPT_VERIFY_MINIMALDATA = (1U << 6),
// Discourage use of NOPs reserved for upgrades (NOP1-10)
//
// Provided so that nodes can avoid accepting or mining transactions
// containing executed NOP's whose meaning may change after a soft-fork,
// thus rendering the script invalid; with this flag set executing
// discouraged NOPs fails the script. This verification flag will never be
// a mandatory flag applied to scripts in a block. NOPs that are not
// executed, e.g. within an unexecuted IF ENDIF block, are *not* rejected.
// NOPs that have associated forks to give them new meaning (CLTV, CSV)
// are not subject to this rule.
SCRIPT_VERIFY_DISCOURAGE_UPGRADABLE_NOPS = (1U << 7),
// Require that only a single stack element remains after evaluation. This changes the success criterion from
// "At least one stack element must remain, and when interpreted as a boolean, it must be true" to
// "Exactly one stack element must remain, and when interpreted as a boolean, it must be true".
// (BIP62 rule 6)
// Note: CLEANSTACK should never be used without P2SH or WITNESS.
// Note: WITNESS_V0 and TAPSCRIPT script execution have behavior similar to CLEANSTACK as part of their
// consensus rules. It is automatic there and does not need this flag.
SCRIPT_VERIFY_CLEANSTACK = (1U << 8),
// Verify CHECKLOCKTIMEVERIFY
//
// See BIP65 for details.
SCRIPT_VERIFY_CHECKLOCKTIMEVERIFY = (1U << 9),
// support CHECKSEQUENCEVERIFY opcode
//
// See BIP112 for details
SCRIPT_VERIFY_CHECKSEQUENCEVERIFY = (1U << 10),
// Support segregated witness
//
SCRIPT_VERIFY_WITNESS = (1U << 11),
// Making v1-v16 witness program non-standard
//
SCRIPT_VERIFY_DISCOURAGE_UPGRADABLE_WITNESS_PROGRAM = (1U << 12),
// Segwit script only: Require the argument of OP_IF/NOTIF to be exactly 0x01 or empty vector
//
// Note: TAPSCRIPT script execution has behavior similar to MINIMALIF as part of its consensus
// rules. It is automatic there and does not depend on this flag.
SCRIPT_VERIFY_MINIMALIF = (1U << 13),
// Signature(s) must be empty vector if a CHECK(MULTI)SIG operation failed
//
SCRIPT_VERIFY_NULLFAIL = (1U << 14),
// Public keys in segregated witness scripts must be compressed
//
SCRIPT_VERIFY_WITNESS_PUBKEYTYPE = (1U << 15),
// Making OP_CODESEPARATOR and FindAndDelete fail any non-segwit scripts
//
SCRIPT_VERIFY_CONST_SCRIPTCODE = (1U << 16),
// Taproot/Tapscript validation (BIPs 341 & 342)
//
SCRIPT_VERIFY_TAPROOT = (1U << 17),
// Making unknown Taproot leaf versions non-standard
//
SCRIPT_VERIFY_DISCOURAGE_UPGRADABLE_TAPROOT_VERSION = (1U << 18),
// Making unknown OP_SUCCESS non-standard
SCRIPT_VERIFY_DISCOURAGE_OP_SUCCESS = (1U << 19),
// Making unknown public key versions (in BIP 342 scripts) non-standard
SCRIPT_VERIFY_DISCOURAGE_UPGRADABLE_PUBKEYTYPE = (1U << 20),
// Constants to point to the highest flag in use. Add new flags above this line.
//
SCRIPT_VERIFY_END_MARKER
};
bool CheckSignatureEncoding(const std::vector<unsigned char> &vchSig, unsigned int flags, ScriptError* serror);
struct PrecomputedTransactionData
{
// BIP341 precomputed data.
// These are single-SHA256, see https://github.com/bitcoin/bips/blob/master/bip-0341.mediawiki#cite_note-15.
uint256 m_prevouts_single_hash;
uint256 m_sequences_single_hash;
uint256 m_outputs_single_hash;
uint256 m_spent_amounts_single_hash;
uint256 m_spent_scripts_single_hash;
//! Whether the 5 fields above are initialized.
bool m_bip341_taproot_ready = false;
// BIP143 precomputed data (double-SHA256).
uint256 hashPrevouts, hashSequence, hashOutputs;
//! Whether the 3 fields above are initialized.
bool m_bip143_segwit_ready = false;
std::vector<CTxOut> m_spent_outputs;
//! Whether m_spent_outputs is initialized.
bool m_spent_outputs_ready = false;
PrecomputedTransactionData() = default;
/** Initialize this PrecomputedTransactionData with transaction data.
*
* @param[in] tx The transaction for which data is being precomputed.
* @param[in] spent_outputs The CTxOuts being spent, one for each tx.vin, in order.
* @param[in] force Whether to precompute data for all optional features,
* regardless of what is in the inputs (used at signing
* time, when the inputs aren't filled in yet). */
template <class T>
void Init(const T& tx, std::vector<CTxOut>&& spent_outputs, bool force = false);
template <class T>
explicit PrecomputedTransactionData(const T& tx);
};
enum class SigVersion
{
BASE = 0, //!< Bare scripts and BIP16 P2SH-wrapped redeemscripts
WITNESS_V0 = 1, //!< Witness v0 (P2WPKH and P2WSH); see BIP 141
TAPROOT = 2, //!< Witness v1 with 32-byte program, not BIP16 P2SH-wrapped, key path spending; see BIP 341
TAPSCRIPT = 3, //!< Witness v1 with 32-byte program, not BIP16 P2SH-wrapped, script path spending, leaf version 0xc0; see BIP 342
};
struct ScriptExecutionData
{
//! Whether m_tapleaf_hash is initialized.
bool m_tapleaf_hash_init = false;
//! The tapleaf hash.
uint256 m_tapleaf_hash;
//! Whether m_codeseparator_pos is initialized.
bool m_codeseparator_pos_init = false;
//! Opcode position of the last executed OP_CODESEPARATOR (or 0xFFFFFFFF if none executed).
uint32_t m_codeseparator_pos;
//! Whether m_annex_present and (when needed) m_annex_hash are initialized.
bool m_annex_init = false;
//! Whether an annex is present.
bool m_annex_present;
//! Hash of the annex data.
uint256 m_annex_hash;
//! Whether m_validation_weight_left is initialized.
bool m_validation_weight_left_init = false;
//! How much validation weight is left (decremented for every successful non-empty signature check).
int64_t m_validation_weight_left;
};
/** Signature hash sizes */
static constexpr size_t WITNESS_V0_SCRIPTHASH_SIZE = 32;
static constexpr size_t WITNESS_V0_KEYHASH_SIZE = 20;
static constexpr size_t WITNESS_V1_TAPROOT_SIZE = 32;
static constexpr uint8_t TAPROOT_LEAF_MASK = 0xfe;
static constexpr uint8_t TAPROOT_LEAF_TAPSCRIPT = 0xc0;
static constexpr size_t TAPROOT_CONTROL_BASE_SIZE = 33;
static constexpr size_t TAPROOT_CONTROL_NODE_SIZE = 32;
static constexpr size_t TAPROOT_CONTROL_MAX_NODE_COUNT = 128;
static constexpr size_t TAPROOT_CONTROL_MAX_SIZE = TAPROOT_CONTROL_BASE_SIZE + TAPROOT_CONTROL_NODE_SIZE * TAPROOT_CONTROL_MAX_NODE_COUNT;
extern const CHashWriter HASHER_TAPSIGHASH; //!< Hasher with tag "TapSighash" pre-fed to it.
extern const CHashWriter HASHER_TAPLEAF; //!< Hasher with tag "TapLeaf" pre-fed to it.
extern const CHashWriter HASHER_TAPBRANCH; //!< Hasher with tag "TapBranch" pre-fed to it.
template <class T>
uint256 SignatureHash(const CScript& scriptCode, const T& txTo, unsigned int nIn, int nHashType, const CAmount& amount, SigVersion sigversion, const PrecomputedTransactionData* cache = nullptr);
class BaseSignatureChecker
{
public:
virtual bool CheckECDSASignature(const std::vector<unsigned char>& scriptSig, const std::vector<unsigned char>& vchPubKey, const CScript& scriptCode, SigVersion sigversion) const
{
return false;
}
virtual bool CheckSchnorrSignature(Span<const unsigned char> sig, Span<const unsigned char> pubkey, SigVersion sigversion, const ScriptExecutionData& execdata, ScriptError* serror = nullptr) const
{
return false;
}
virtual bool CheckLockTime(const CScriptNum& nLockTime) const
{
return false;
}
virtual bool CheckSequence(const CScriptNum& nSequence) const
{
return false;
}
virtual ~BaseSignatureChecker() {}
};
/** Enum to specify what *TransactionSignatureChecker's behavior should be
* when dealing with missing transaction data.
*/
enum class MissingDataBehavior
{
ASSERT_FAIL, //!< Abort execution through assertion failure (for consensus code)
FAIL, //!< Just act as if the signature was invalid
};
template<typename T>
bool SignatureHashSchnorr(uint256& hash_out, const ScriptExecutionData& execdata, const T& tx_to, uint32_t in_pos, uint8_t hash_type, SigVersion sigversion, const PrecomputedTransactionData& cache, MissingDataBehavior mdb);
template <class T>
class GenericTransactionSignatureChecker : public BaseSignatureChecker
{
private:
const T* txTo;
const MissingDataBehavior m_mdb;
unsigned int nIn;
const CAmount amount;
const PrecomputedTransactionData* txdata;
protected:
virtual bool VerifyECDSASignature(const std::vector<unsigned char>& vchSig, const CPubKey& vchPubKey, const uint256& sighash) const;
virtual bool VerifySchnorrSignature(Span<const unsigned char> sig, const XOnlyPubKey& pubkey, const uint256& sighash) const;
public:
GenericTransactionSignatureChecker(const T* txToIn, unsigned int nInIn, const CAmount& amountIn, MissingDataBehavior mdb) : txTo(txToIn), m_mdb(mdb), nIn(nInIn), amount(amountIn), txdata(nullptr) {}
GenericTransactionSignatureChecker(const T* txToIn, unsigned int nInIn, const CAmount& amountIn, const PrecomputedTransactionData& txdataIn, MissingDataBehavior mdb) : txTo(txToIn), m_mdb(mdb), nIn(nInIn), amount(amountIn), txdata(&txdataIn) {}
bool CheckECDSASignature(const std::vector<unsigned char>& scriptSig, const std::vector<unsigned char>& vchPubKey, const CScript& scriptCode, SigVersion sigversion) const override;
bool CheckSchnorrSignature(Span<const unsigned char> sig, Span<const unsigned char> pubkey, SigVersion sigversion, const ScriptExecutionData& execdata, ScriptError* serror = nullptr) const override;
bool CheckLockTime(const CScriptNum& nLockTime) const override;
bool CheckSequence(const CScriptNum& nSequence) const override;
};
using TransactionSignatureChecker = GenericTransactionSignatureChecker<CTransaction>;
using MutableTransactionSignatureChecker = GenericTransactionSignatureChecker<CMutableTransaction>;
class DeferringSignatureChecker : public BaseSignatureChecker
{
protected:
BaseSignatureChecker& m_checker;
public:
DeferringSignatureChecker(BaseSignatureChecker& checker) : m_checker(checker) {}
bool CheckECDSASignature(const std::vector<unsigned char>& scriptSig, const std::vector<unsigned char>& vchPubKey, const CScript& scriptCode, SigVersion sigversion) const override
{
return m_checker.CheckECDSASignature(scriptSig, vchPubKey, scriptCode, sigversion);
}
bool CheckSchnorrSignature(Span<const unsigned char> sig, Span<const unsigned char> pubkey, SigVersion sigversion, const ScriptExecutionData& execdata, ScriptError* serror = nullptr) const override
{
return m_checker.CheckSchnorrSignature(sig, pubkey, sigversion, execdata, serror);
}
bool CheckLockTime(const CScriptNum& nLockTime) const override
{
return m_checker.CheckLockTime(nLockTime);
}
bool CheckSequence(const CScriptNum& nSequence) const override
{
return m_checker.CheckSequence(nSequence);
}
};
/** Compute the BIP341 tapleaf hash from leaf version & script. */
uint256 ComputeTapleafHash(uint8_t leaf_version, const CScript& script);
/** Compute the BIP341 taproot script tree Merkle root from control block and leaf hash.
* Requires control block to have valid length (33 + k*32, with k in {0,1,..,128}). */
uint256 ComputeTaprootMerkleRoot(Span<const unsigned char> control, const uint256& tapleaf_hash);
bool EvalScript(std::vector<std::vector<unsigned char> >& stack, const CScript& script, unsigned int flags, const BaseSignatureChecker& checker, SigVersion sigversion, ScriptExecutionData& execdata, ScriptError* error = nullptr);
bool EvalScript(std::vector<std::vector<unsigned char> >& stack, const CScript& script, unsigned int flags, const BaseSignatureChecker& checker, SigVersion sigversion, ScriptError* error = nullptr);
bool VerifyScript(const CScript& scriptSig, const CScript& scriptPubKey, const CScriptWitness* witness, unsigned int flags, const BaseSignatureChecker& checker, ScriptError* serror = nullptr);
size_t CountWitnessSigOps(const CScript& scriptSig, const CScript& scriptPubKey, const CScriptWitness* witness, unsigned int flags);
bool CheckMinimalPush(const std::vector<unsigned char>& data, opcodetype opcode);
int FindAndDelete(CScript& script, const CScript& b);
#endif // BITCOIN_SCRIPT_INTERPRETER_H
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